Description
The Radar DIMAX e-Touring 1 is an all-season tire that's designed for use on passenger vehicles. Backed by a 45,000 mile limited manufacturer tread life warranty, the e-Touring 1 features a low rolling resistance rubber compound and light weight construction that reduces CO2 emissions to enhance fuel efficiency. The Dimax e Touring 1 is the latest touring range within the Dimax e Collection from Radar Tires. This range offers a combination of safety, stability and is eco-friendly at the same time. The e Touring 1 is engineered for high mileage and eco-friendly performance. It utilizes a special low rolling resistance compound and light weight construction that minimizes the energy lost from heat, improving the vehicle's fuel efficiency and reducing the amount of CO2 emitted into the environment. It also features a silica based tread compound that provides added safety through shorter braking distance.
- All-season tread
- Built with a silica based tread compound that helps drivers stop up to 8 feet shorter than the Dimax A/S 8
- Backed by a 45,000 mile limited manufacturer tread life warranty
- Silica based tread compound provides no compromise braking, that results up to 8 feet shorter stopping distance
- Computer optimized tread pitch sequence combined with a lightweight construction for a quiet and comfortable ride
- Backed by Radar's Protect Program, which includes a Workmanship and Material Warranty, Limited Tread Life Warranty, Road Hazard Warranty, and 30-Day Satisfaction Guarantee
- Built with a low rolling resistance rubber compound and light weight construction that reduces CO2 emissions to enhance fuel efficiency
- Backed by a 45,000 mile limited manufacturer tread life warranty
- Backed by Radar's Protect Program, which includes a Workmanship and Material Warranty, Limited Tread Life Warranty, Road Hazard Warranty, and 30-Day Satisfaction Guarantee
- Designed with an optimized tread pitch sequence and lightweight construction to give drivers a quiet, comfortable ride
- Utilizes a special low rolling resistance compound and lightweight construction that minimizes energy lost from heat, to improve the vehicle's fuel efficiency and reduce CO2 emissions